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Gas Turbine Fired Heater Integration: Achieve Significant Energy Savings
(Energy Systems Laboratory (http://esl.tamu.edu), 1985-05)
Faster payout will result if gas turbine exhaust
is used as combustion air for fired heaters. Here
are economic examples and system design considerations.
Cogeneration Energy Profitability from the Energy User and Third-Party Viewpoint
(Energy Systems Laboratory (http://esl.tamu.edu)Texas A&M University (http://www.tamu.edu), 1984)
This paper describes the relationship between major energy costs such as: fuel, electricity, and thermal energy and their effect on cogeneration profits and economics from both the energy user and the third party perspective. ...
Application of Cogeneration to Small Commercial Systems
(Energy Systems Laboratory (http://esl.tamu.edu)Texas A&M University (http://www.tamu.edu), 1984)
Co-generation is sometimes defined as a customer owned, electrical generating system capable of feeding power back into the Electric Utility lines for compensation.
For a long time, the Electric Utility Companies took ...
Coal-Fired Fluidized Bed Combustion Cogeneration
(Energy Systems Laboratory (http://esl.tamu.edu), 1985-05)
The availability of an environmentally acceptable
multifuel technology, such as fluidized bed
combustion, has encouraged many steam producers/
users to investigate switching from oil or gas to
coal. Changes in federal ...
An Integrated Approach to Evaluating the Technical and Commercial Options for Cogeneration Facilities in the Process Industry
(Energy Systems Laboratory (http://esl.tamu.edu), 1985-05)
Cogeneration under the PURPA law is providing opportunity to the Process Industry not only to conserve fuel and electric costs associated with commercial process production, but effectively to share in the revenue from the ...
A Utility-Affiliated Cogeneration Developer Perspective
(Energy Systems Laboratory (http://esl.tamu.edu), 1985-05)
This paper will address cogeneration from a utility-affiliated cogeneration developer perspective on cogeneration as it relates to the development and consumption of power available from a cogeneration project. It will ...
Economics of Energy Conservation in the Chemical and Petrochemical Industries
(Energy Systems Laboratory (http://esl.eslwin.tamu.edu), 1987-09)
Capital allocated to energy savings
projects competes with that for new or
revised plants. Thus, it must show the
same or better rate of return. Usually
the risk factor in energy savings projects
is less than allocations ...
The Cogeneration Plant: Meeting Long-Term Objectives
(Energy Systems Laboratory (http://esl.eslwin.tamu.edu), 1989-09)
In order to meet economic objectives of cogeneration projects, reliable operation must be achieved. The key to successful operation is proper preparation beginning at the economic justification stage and continuing through ...
Cogeneration at Iowa Methodist Medical Center
(Energy Systems Laboratory (http://esl.tamu.edu), 1986-06)
The Iowa Methodist Medical Center of Des Moines, Iowa, is installing two 1,500 kW Fairbanks-Morse
turbocharged dual-fuel reciprocating engine-generators.
The system will be installed with recovery
of exhaust waste heat ...
Co-Generation at a Practical Plant Level
(Energy Systems Laboratory (http://esl.tamu.edu)Texas A&M University (http://www.tamu.edu), 1980)
The Steam Turbine: A basic description of how a steam turbine converts available heat into mechanical energy to
define the formulae used for the cost comparisons in the subsequent examples.
Co-Generation: Comparison between ...